Whip and loop interrupter combination

ABSTRACT

A circuit interrupting device including a loop split interrupter for interrupting a loop split circuit, and a quick whip interrupter for interrupting a charging circuit.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. patent application Ser. No.16/202,590, filed on Nov. 28, 2018, which claims the benefit of U.S.patent application Ser. No. 15/584,903, filed on May 2, 2017, whichclaims the benefit of U.S. Provisional Patent Application No.62/330,550, filed May 2, 2016, both of which are incorporated herein byreference.

FIELD

Embodiments relate to current interrupting devices.

SUMMARY

Electrical switching equipment—also referred to as switchgear—closes andopens an electrical circuit. This action necessarily requires a changeof state of the circuit from one steady-state condition to another. Thechange is related to the change of the energy in the circuit componentswhich, in turn, produces an electrical transient, which comes in theform of a surge voltage, a surge current or both. Such transientsinclude energy that must be safely dissipated to avoid severe injury ordeath.

Depending on the circuit conditions, however, even small amounts oftransient energy can be sufficient enough to damage or destroy othernearby equipment. It is the function of the switchgear to provide thecircuit switching functions without generating transient levels thatcannot be safely managed by the system components.

High voltage/high current interrupter switches typically include eithera bottle interrupter or a whip. The bottle interrupter has one or morebottles, e.g., with loop split ratings, and the whip has line chargingratings.

Providing both functions for separate situations is costly and requiresexcessive equipment and maintenance. A device known as a Teco-rutper™,provided by Turner Electric, performs both functions but it requires amulti-bottle stack. An exemplary device disclosed herein does both at amuch lower cost because according to one or more embodiments of thedevice disclosed, there is only one bottle. A need exists, therefore,for a combined single-bottle solution to reduce the amount of equipmentrequired and provide a more cost-effective solution.

Thus, in one embodiment, a circuit interrupting device includes a loopsplit interrupter for interrupting a loop split circuit with a highcurrent and a low voltage and a quick whip interrupter for interruptinga charging circuit with a low current and high voltage. In someembodiments, a circuit interrupting device includes a blade carrying aprimary current for said circuit and a pickup assembly bridging thecurrent from said blade to one or more loop split interrupter and quickwhip interrupter.

In another embodiment, a circuit interrupting device includes a sparkgap disposed between two or more spark gap rods. In some embodiments, acircuit interrupter includes a single bottle interrupter.

BRIEF DESCRIPTION OF THE DRAWINGS

A more complete understanding of the present application may be derivedby referring to the detailed description and claims when considered inconnection with the Figures, wherein like reference numerals refer tosimilar elements throughout the Figures.

FIG. 1 illustrates an exemplary high voltage/high current circuitinterrupter switch in a closed position according to one embodiment.

FIG. 2 illustrates an exemplary high voltage/high current circuitinterrupter switch in a intermediary position according to oneembodiment.

FIG. 3 illustrates an exemplary high voltage/high current circuitinterrupter switch in an open position according to one embodiment.

DETAILED DESCRIPTION

Before any embodiments of the application are explained in detail, it isto be understood that the application is not limited in its applicationto the details of construction and the arrangement of components setforth in the following description or illustrated in the followingdrawings. The application is capable of other embodiments and of beingpracticed or of being carried out in various ways.

With reference now to FIG. 1, a high voltage/high current circuitinterrupter switch 100 according to one embodiment includes a supportframe 118. A first elongate insulator 120, mounted to support frame 118,supports a terminal support 141. A first electrical terminal 122 isconnected to terminal support 141. A loop split interrupter 130 isconnected to terminal support 141, which also provides electricalconductivity between electrical terminal 122 and a distal end of loopsplit interrupter 130. A first spark rod 144 is also connected toterminal support 141. A second spark rod is connected to an operationalend of loop split interrupter 130, separated from the first spark rod144 by spark gap 146. Loop split interrupter 130 is configured forinterrupting loop split circuits. Loop split interrupter 130 may includea plurality of vacuum bottles, or may be configured with a single vacuumbottle. Quick whip 150 is connected to the operational end of loop splitinterrupter 130. In some embodiments, quick whip 150 includes amechanical energy storage mechanism, such as torsion spring 149. In someembodiments, the operational end of loop split interrupter 130 is alsoconnected to a first transmission wire (not shown).

Regarding the pivotable switch components, the support frame 118 mayalso mount a second elongated insulator 132 and third elongate insulator134 opposite the first insulator 120. The third insulator 134 may bepivotably connected to the support frame 118, for example, via a bearingassembly 133. In some embodiments, support frame 118 is then connectedto a second transmission wire (not shown). Furthermore, the thirdinsulator 134 also connects to the operating mechanism 116 and ispivoted thereby as described in further detail below. The secondinsulator 132 and third insulator 134 mount a blade support 138 and anelectrically conductive tubular blade 140 that is pivotable toselectively provide an electrical connection with the first electricalterminal 122. Pickup finger assembly 136 is attached to blade 140 andconfigured such that it maintains electrical contact with quick whip 150over a portion of travel of blade 140. Whip catch 137 guides movement ofwhip 150 and limits displacement of whip 150 perpendicular to themovement plane of blade 140.

In some embodiments, rotating the operating mechanism 116 pivots theblade 140 from a closed blade position (FIG. 1) through an intermediaryposition (FIG. 2) to an open position (FIG. 3) and vice versa.Specifically, pivoting the operating mechanism 116 in a first direction(for example, clockwise as viewed from above in the illustratedembodiment) drives the blade 140 toward the closed blade position, andpivoting the operating mechanism 116 in a second direction (for example,counter-clockwise as viewed from above in the illustrated embodiment)drives the blade 140 toward the open blade position.

The blade support 138 mounts the blade 140 such that the blade 140 ispivotable about its lateral axis from a closed contact position (FIG. 1)to an open contact position (the blade 140 is shown moving toward theopen contact position in FIG. 2) and vice versa. As the name implies, inthe closed contact position the blade 140 proximate the first electricalterminal 122 engages the terminal contacts 128 to electrically connectthe first terminal 122 and the blade 140. In some embodiments, whenelectrically connected, blade 140 connects the first and secondtransmission wires.

An exemplary operation of circuit interrupter 100 will follow. While inthe closed position, the first and second transmission wires areelectrically connected. Rotating operating mechanism 116 pivots blade140 from a closed position. As blade 140 pivots, whip catch 137 contactswhip 150. The electrically conductive path is now through whip catch 137to whip 150 and loop split interrupter 130. As blade 140 continues topivot, whip catch 137 loads whip 150. While whip 150 is being loaded,interrupter 130 attempts to interrupt the circuit. If the circuit is aloop split scenario (for example, both transmission lines are atapproximately equal voltages), interrupter 130 interrupts the circuit.If the circuit is a line charging scenario (for example, one of thetransmission lines is unloaded), the high recovery voltage causes theair in spark gap 146 to break down and conduct current through sparkrods 142-144. Current may continue to flow through whip 150 into blade140 until blade 140 pivots beyond the extent of whip 150. Once whipcatch 137 releases whip 150, whip 150 rapidly unloads tension stored intorsion spring 149, interrupting the circuit.

The switch 100 may comprise appropriate materials recognized by thoseskilled in the art. For example, the blade 140 may be formed of aluminumand the terminals 122 and 100 and the blade support 138 may be formed ofcopper, silver-coated metals, or the like. The insulators 120, 132, and134 may be formed of ceramics or other insulating materials.

Finally, while the present application has been described above withreference to various exemplary embodiments, many changes, combinationsand modifications may be made to the exemplary embodiments withoutdeparting from the scope of the present application. For example, thevarious components may be implemented in alternative ways. Thesealternatives can be suitably selected depending upon the particularapplication or in consideration of any number of factors associated withthe operation of the device. In addition, the techniques describedherein may be extended or modified for use with other types of devices.These and other changes or modifications are intended to be includedwithin the scope of the present application.

Preferred embodiments of the application have been described inconsiderable detail. Many modifications and variations to the preferredembodiments described will be apparent to a person of ordinary skill inthe art. Therefore, the application should not be limited to theembodiments described, but should be defined by the claims that follow.

What is claimed is:
 1. A circuit interrupting device comprising: a loopsplit interrupter for interrupting a loop split circuit; and a quickwhip interrupter for interrupting a charging circuit.
 2. The circuitinterrupting device recited in claim 1, further comprising a primarycircuit including the loop split circuit and the charging circuit. 3.The circuit interrupting device recited in claim 2, wherein primarycircuit has a high current and a low voltage.
 4. The circuitinterrupting device recited in claim 2, further comprising: a bladecarrying a primary current for the primary circuit; and a pickupassembly bridging the current from said blade to one or more of saidloop split interrupter and said quick whip interrupter.
 5. The circuitinterrupting device recited in claim 4, wherein the loop splitinterrupter includes two or more spark gap rods, wherein a spark gap isdisposed between the two or more spark gap rods.
 6. The circuitinterrupting device recited in claim 4, wherein the blade is rotatablebetween a first position and a second position, wherein, in a firstposition, the blade conducts the primary current for the primary circuitand, in a second position, the blade does not conduct current for theprimary circuit.
 7. The circuit interrupting device recited in claim 1,wherein said loop split interrupter includes a single bottleinterrupter.
 8. The circuit interrupting device recited in claim 1,wherein the quick whip interrupter includes a mechanical energy storagemechanism.
 9. The circuit interrupting device recited in claim 8,wherein the mechanical energy storage mechanism comprises a torsionspring.
 10. An electrical switch, comprising: an electrical terminalincluding a terminal contact; a loop split interrupter electricallycoupled to the terminal contact; a quick whip interrupter electricallycoupled to the loop split interrupter and the terminal contact; and ablade rotatable from an open blade position to a closed blade position.11. The electrical switch of claim 10, further comprising a pickupassembly bridging the current from the blade to one or more of the loopsplit interrupter and the quick whip interrupter.
 12. The electricalswitch of claim 10, further comprising two or more spark gap rods,wherein a spark gap is disposed between the two or more spark gap rods.13. The electrical switch of claim 10, wherein the loop splitinterrupter includes a single bottle interrupter.
 14. The electricalswitch of claim 10, wherein the blade conducts a current in the closedblade position and does not conduct a current in the open bladeposition.
 15. The electrical switch of claim 10, wherein the quick whipinterrupter includes a mechanical energy storage mechanism.
 16. Theelectrical switch of claim 15, wherein the mechanical energy storagemechanism comprises a torsion spring.